Ultraviolet light screen using cholesteric liquid crystal capsules on the basis of selective reflection

Heemuk Oh; Hirotugu Kikuchi; Ji Hyun Lee; Su Ji Kim; Jun Bae Lee; Moon Sun Cho; Min Young Lee; Yasushi Okumura; Joo-Hee Hong; Sung-Kyu Hong

doi:10.1039/d1ra03499e

Ultraviolet light screen using cholesteric liquid crystal capsules on the basis of selective reflection

RSC Adv. 2021 Jul 22;11(41):25471-25476. doi: 10.1039/d1ra03499e. eCollection 2021 Jul 19.

Authors

Heemuk Oh^{1

2}, Hirotugu Kikuchi³, Ji Hyun Lee², Su Ji Kim², Jun Bae Lee², Moon Sun Cho¹, Min Young Lee¹, Yasushi Okumura³, Joo-Hee Hong⁴, Sung-Kyu Hong¹

Affiliations

¹ Department of Chemical & Biochemical Engineering, Dongguk University-Seoul Seoul 100-715 Republic of Korea hsk5457@dongguk.edu.
² Cosmax Inc. Seongnam 13486 Republic of Korea.
³ Institute for Materials Chemistry and Engineering, Kyushu University Fukuoka 816-8580 Japan.
⁴ Department of Industrial Chemical Engineering, Suncheon Jeil College 17 Jeildaehak-gil Suncheon Jeonnam 540-744 Republic of Korea.

Abstract

Sunscreen can protect human skin from sunlight by decreasing exposure to ultraviolet (UV) light, specifically UV-B and UV-A. In this study, a new type of UV screen system is proposed using cholesteric liquid crystal (CLC) capable of selectively reflecting UV-A within the human skin temperature range of 32-36 °C. Polycaprolactone (PCL) capsules with CLC mixture which had a helical chiral pitch corresponding to the wavelength of UV light were made by a solvent evaporation method. The average diameter of the capsules was about 34 μm. Consequently, it was confirmed that the CLC mixture (COC : CN = 80 : 20) could reflect UV-A light over 350-380 nm within the human skin temperature range. Also, it was confirmed that the CLC/PCL microcapsules could block UV light over 290-400 nm by about 6%.